Beyond Immune Cell Migration: The Emerging Role of the Sphingosine-1-phosphate Receptor S1PR4 as a Modulator of Innate Immune Cell Activation

The sphingolipid sphingosine-1-phosphate (S1P) emerges as an important regulator of immunity, mainly by signaling through a family of five specific G protein-coupled receptors (S1PR1–5). While S1P signaling generally has the potential to affect not only trafficking but also differentiation, activation, and survival of a diverse range of immune cells, the specific outcome depends on the S1P receptor repertoire expressed on a given cell. Among the S1PRs, S1PR4 is specifically abundant in immune cells, suggesting a major role of the S1P/S1PR4 axis in immunity. Recent studies indeed highlight its role in activation of immune cells, differentiation, and, potentially, trafficking. In this review, we summarize the emerging data that support a major role of S1PR4 in modulating immunity in humans and mice and discuss therapeutic implications.

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The Role of Platelets in Cancer Pathophysiology: Focus on Malignant Glioma

Cancers ◽

10.3390/cancers11040569 ◽

2019 ◽

Vol 11 (4) ◽

pp. 569 ◽

Cited By ~ 9

Author(s):

Sascha Marx ◽

Yong Xiao ◽

Marcel Baschin ◽

Maximilian Splittstöhser ◽

Robert Altmann ◽

...

Keyword(s):

Malignant Glioma ◽

Immune Cells ◽

Potential Role ◽

Immune Cell ◽

Malignant Gliomas ◽

Cell Communication ◽

Distant Metastases ◽

Sphingosine 1 Phosphate ◽

The Central Nervous System

The link between thrombocytosis and malignancy has been well known for many years and its associations with worse outcomes have been reported mainly for solid tumors. Besides measuring platelet count, it has become popular to assess platelet function in the context of malignant diseases during the last decade. Malignant gliomas differ tremendously from malignancies outside the central nervous system because they virtually never form distant metastases. This review summarizes the current understanding of the platelet–immune cell communication and its potential role in glioma resistance and progression. Particularly, we focus on platelet-derived proinflammatory modulators, such as sphingosine-1-phosphate (S1P). The multifaceted interaction with immune cells puts the platelet into an interesting perspective regarding the recent advances in immunotherapeutic approaches in malignant glioma.

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Neuronal guidance proteins in cardiovascular inflammation

Basic Research in Cardiology ◽

10.1007/s00395-021-00847-x ◽

2021 ◽

Vol 116 (1) ◽

Author(s):

Marius Keller ◽

Valbona Mirakaj ◽

Michael Koeppen ◽

Peter Rosenberger

Keyword(s):

Cell Activation ◽

Immune Cell ◽

Vascular Endothelial ◽

Therapeutic Approaches ◽

Immune Cell Activation ◽

Cytokines And Chemokines ◽

The Future ◽

Cardiovascular Pathologies ◽

Neuronal Guidance

AbstractCardiovascular pathologies are often induced by inflammation. The associated changes in the inflammatory response influence vascular endothelial biology; they complicate the extent of ischaemia and reperfusion injury, direct the migration of immune competent cells and activate platelets. The initiation and progression of inflammation is regulated by the classical paradigm through the system of cytokines and chemokines. Therapeutic approaches have previously used this knowledge to control the extent of cardiovascular changes with varying degrees of success. Neuronal guidance proteins (NGPs) have emerged in recent years and have been shown to be significantly involved in the control of tissue inflammation and the mechanisms of immune cell activation. Therefore, proteins of this class might be used in the future as targets to control the extent of inflammation in the cardiovascular system. In this review, we describe the role of NGPs during cardiovascular inflammation and highlight potential therapeutic options that could be explored in the future.

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Tuning cancer fate: the unremitting role of host immunity

Open Biology ◽

10.1098/rsob.170006 ◽

2017 ◽

Vol 7 (4) ◽

pp. 170006 ◽

Cited By ~ 22

Author(s):

B. Calì ◽

B. Molon ◽

A. Viola

Keyword(s):

Immune Cells ◽

Immune Cell ◽

Tumour Progression ◽

Host Immunity ◽

Adaptive Immune ◽

Adaptive Immune Cells ◽

Immune Mediated ◽

Immune Cell Subsets ◽

Therapeutic Protocols

Host immunity plays a central and complex role in dictating tumour progression. Solid tumours are commonly infiltrated by a large number of immune cells that dynamically interact with the surrounding microenvironment. At first, innate and adaptive immune cells successfully cooperate to eradicate microcolonies of transformed cells. Concomitantly, surviving tumour clones start to proliferate and harness immune responses by specifically hijacking anti-tumour effector mechanisms and fostering the accumulation of immunosuppressive immune cell subsets at the tumour site. This pliable interplay between immune and malignant cells is a relentless process that has been concisely organized in three different phases: elimination, equilibrium and escape. In this review, we aim to depict the distinct immune cell subsets and immune-mediated responses characterizing the tumour landscape throughout the three interconnected phases. Importantly, the identification of key immune players and molecules involved in the dynamic crosstalk between tumour and immune system has been crucial for the introduction of reliable prognostic factors and effective therapeutic protocols against cancers.

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Immune cell-specific Cre reporter mouse labels a subset of CNS neurons

10.1101/833194 ◽

2019 ◽

Author(s):

Aurélie Bouteau ◽

Botond Z. Igyártó

Keyword(s):

Immune Cells ◽

Langerhans Cells ◽

Immune Cell ◽

Neuronal Marker ◽

Reporter Mouse ◽

Cns Neurons ◽

The Central Nervous System ◽

Antigen Presenting

AbstractHuLangerin-Cre-YFPf/f mice were generated to specifically mark a subset of antigen presenting immune cells, called Langerhans cells (LCs). During histological characterization of these mice, we found that, in addition to LCs an uncharacterized cell population in the central nervous system (CNS) also expressed YFP. In this study, we found that the CNS YFP+ cells were negative for microglia and astrocyte markers, but they expressed mature neuronal marker NeuN and showed neuronal localization/morphology. Thus, these mice might be used to study the ontogeny, migration and the role of a subset of CNS neurons.

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Abstract MP41: A Role Of Isolevuglandins In Systemic Lupus Erythematosus Associated Autoimmunity And Hypertension

Hypertension ◽

10.1161/hyp.76.suppl_1.mp41 ◽

2020 ◽

Vol 76 (Suppl_1) ◽

Author(s):

David M Patrick ◽

Nestor de la Visitacion ◽

Michelle J Ormseth ◽

Charles Stein ◽

Sean S Davies ◽

...

Keyword(s):

Systemic Lupus Erythematosus ◽

Immune Activation ◽

Lupus Erythematosus ◽

Cell Activation ◽

Immune Cell ◽

Healthy Controls ◽

Systemic Lupus ◽

Immune Cell Activation ◽

Systemic Immune Activation

Essential hypertension and systemic lupus erythematosus (SLE) are devastating conditions that disproportionately affect women. SLE has heterogeneous manifestations and treatment is limited to the use of non-specific global immunosuppression. Importantly, there is an increased prevalence of hypertension in women with SLE compared to healthy controls. Isolevuglandins (IsoLGs) are oxidation products of fatty acids that form as a result of reactive oxygen species. These molecules adduct covalently to lysine residues of proteins. Adducted proteins are then presented as autoantigens to T-cells resulting in immune cell activation. Previous studies have shown an essential role of IsoLGs in immune cell activation and the development of hypertension in animal models. We hypothesize that isoLGs are important for the development of hypertension and systemic immune activation in SLE. We first examined isoLG adduct accumulation within monocytes of human subjects with SLE compared to healthy controls. By flow cytometry, we found marked accumulation of isoLG adducts within CD14 + monocytes (34.2% ± 12.4% vs 3.81% ± 2.1% of CD14 + , N = 10-11, P <0.05). We confirmed this increase in isoLG adducts by mass spectrometry. To determine a causative role of isoLG adducts in immune activation and hypertension in SLE, we employed the B6.SLE123 and NZBWF1 mouse models of SLE. Animals were treated with the isoLG scavenger 2-hydroxybenzylamine (2-HOBA) or vehicle beginning at 7 weeks and were sacrificed at 32 weeks of age. C57BL/6 and NZW were used as controls. Importantly, treatment with 2-HOBA attenuated blood pressure in both mouse models (systolic BP 136.2 ± 5.6 mmHg for B6.SLE123 vs 120.9 ± 4.46 mmHg for B6.SLE123 +2HOBA; 164.7 ± 24.4 mmHg for NZBWF1 vs 136.9 ± 14.9 mmHg for NZBWF1 +2HOBA, N = 6-8, P < 0.05). Moreover, treatment with 2-HOBA reduced albuminuria and renal injury in the B6.SLE123 model (albumin/creatinine ratio 33.8 ± 2.0 x 10 -2 μg/mg for B6.SLE123 vs 5.5 ± 0.9 x 10 -2 μg/mg for B6.SLE123 +2HOBA, N = 7-9, P < 0.05). Finally, immune cell accumulation in primary and secondary lymphoid organs is significantly attenuated by 2-HOBA. These studies suggest a critical role of isoLG adduct accumulation in both systemic immune activation and hypertension in SLE.

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Investigating the role of chromosomal instability in immune cell activation

Annals of Oncology ◽

10.1093/annonc/mdz413.091 ◽

2019 ◽

Vol 30 ◽

pp. vii25-vii26

Author(s):

M. Sokac ◽

L. Dyrskjøt Andersen ◽

M. Roelsgaard Jakobsen ◽

N. Birkbak

Keyword(s):

Chromosomal Instability ◽

Cell Activation ◽

Immune Cell ◽

Immune Cell Activation

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The Role of T Cells and Macrophages in Asthma Pathogenesis: A New Perspective on Mutual Crosstalk

Mediators of Inflammation ◽

10.1155/2020/7835284 ◽

2020 ◽

Vol 2020 ◽

pp. 1-14

Author(s):

Xueyi Zhu ◽

Jie Cui ◽

La Yi ◽

Jingjing Qin ◽

Wuniqiemu Tulake ◽

...

Keyword(s):

T Cells ◽

Cell Activation ◽

Immune Cell ◽

Immune Microenvironment ◽

Innate And Adaptive Immunity ◽

Immune Cell Activation ◽

Inflammatory Signals ◽

Macrophage Dysfunction ◽

New Perspective

Asthma is associated with innate and adaptive immunity mediated by immune cells. T cell or macrophage dysfunction plays a particularly significant role in asthma pathogenesis. Furthermore, crosstalk between them continuously transmits proinflammatory or anti-inflammatory signals, causing the immune cell activation or repression in the immune response. Consequently, the imbalanced immune microenvironment is the major cause of the exacerbation of asthma. Here, we discuss the role of T cells, macrophages, and their interactions in asthma pathogenesis.

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Succinate Is an Inflammation-Induced Immunoregulatory Metabolite in Macrophages

Metabolites ◽

10.3390/metabo10090372 ◽

2020 ◽

Vol 10 (9) ◽

pp. 372 ◽

Cited By ~ 2

Author(s):

Karl J. Harber ◽

Kyra E. de Goede ◽

Sanne G. S. Verberk ◽

Elisa Meinster ◽

Helga E. de Vries ◽

...

Keyword(s):

Immune Responses ◽

Immune Cells ◽

Immune Cell ◽

Inflammatory Responses ◽

Inflammatory Diseases ◽

Cell Phenotype ◽

Independent Manner ◽

Inflammatory Macrophages ◽

Necrosis Factor

Immunometabolism revealed the crucial role of cellular metabolism in controlling immune cell phenotype and functions. Macrophages, key immune cells that support progression of numerous inflammatory diseases, have been well described as undergoing vast metabolic rewiring upon activation. The immunometabolite succinate particularly gained a lot of attention and emerged as a crucial regulator of macrophage responses and inflammation. Succinate was originally described as a metabolite that supports inflammation via distinct routes. Recently, studies have indicated that succinate and its receptor SUCNR1 can suppress immune responses as well. These apparent contradictory effects might be due to specific experimental settings and particularly the use of distinct succinate forms. We therefore compared the phenotypic and functional effects of distinct succinate forms and receptor mouse models that were previously used for studying succinate immunomodulation. Here, we show that succinate can suppress secretion of inflammatory mediators IL-6, tumor necrosis factor (TNF) and nitric oxide (NO), as well as inhibit Il1b mRNA expression of inflammatory macrophages in a SUCNR1-independent manner. We also observed that macrophage SUCNR1 deficiency led to an enhanced inflammatory response without addition of exogenous succinate. While our study does not reveal new mechanistic insights into how succinate elicits different inflammatory responses, it does indicate that the inflammatory effects of succinate and its receptor SUCNR1 in macrophages are clearly context dependent.

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Neuroimmune Semaphorin 4A in Cancer Angiogenesis and Inflammation: A Promoter or a Suppressor?

International Journal of Molecular Sciences ◽

10.3390/ijms20010124 ◽

2018 ◽

Vol 20 (1) ◽

pp. 124 ◽

Cited By ~ 4

Author(s):

Apoorva Iyer ◽

Svetlana Chapoval

Keyword(s):

Cell Activation ◽

Immune Cell ◽

Fine Tuning ◽

Breast Cancers ◽

Immune Functions ◽

Immune Cell Activation ◽

Important Regulator ◽

And Function ◽

Axon Guidance Molecule ◽

Guidance Molecule

Neuroimmune semaphorin 4A (Sema4A), a member of semaphorin family of transmembrane and secreted proteins, is an important regulator of neuronal and immune functions. In the nervous system, Sema4A primarily regulates the functional activity of neurons serving as an axon guidance molecule. In the immune system, Sema4A regulates immune cell activation and function, instructing a fine tuning of the immune response. Recent studies have shown a dysregulation of Sema4A expression in several types of cancer such as hepatocellular carcinoma, colorectal, and breast cancers. Cancers have been associated with abnormal angiogenesis. The function of Sema4A in angiogenesis and cancer is not defined. Recent studies have demonstrated Sema4A expression and function in endothelial cells. However, the results of these studies are controversial as they report either pro- or anti-angiogenic Sema4A effects depending on the experimental settings. In this mini-review, we discuss these findings as well as our data on Sema4A regulation of inflammation and angiogenesis, which both are important pathologic processes underlining tumorigenesis and tumor metastasis. Understanding the role of Sema4A in those processes may guide the development of improved therapeutic treatments for cancer.

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Niacin protects against abdominal aortic aneurysm formation via GPR109A independent mechanisms: role of NAD+/nicotinamide

Cardiovascular Research ◽

10.1093/cvr/cvz303 ◽

2019 ◽

Vol 116 (14) ◽

pp. 2226-2238 ◽

Cited By ~ 5

Author(s):

Tetsuo Horimatsu ◽

Andra L Blomkalns ◽

Mourad Ogbi ◽

Mary Moses ◽

David Kim ◽

...

Keyword(s):

Immune Cells ◽

Inflammatory Cell ◽

Immune Cell ◽

Inflammatory Responses ◽

Aortic Aneurysms ◽

Cell Infiltration ◽

Protective Effects ◽

Abdominal Aortic ◽

G Protein Coupled

Abstract Aims Chronic adventitial and medial infiltration of immune cells play an important role in the pathogenesis of abdominal aortic aneurysms (AAAs). Nicotinic acid (niacin) was shown to inhibit atherosclerosis by activating the anti-inflammatory G protein-coupled receptor GPR109A [also known as hydroxycarboxylic acid receptor 2 (HCA2)] expressed on immune cells, blunting immune activation and adventitial inflammatory cell infiltration. Here, we investigated the role of niacin and GPR109A in regulating AAA formation. Methods and results Mice were supplemented with niacin or nicotinamide, and AAA was induced by angiotensin II (AngII) infusion or calcium chloride (CaCl2) application. Niacin markedly reduced AAA formation in both AngII and CaCl2 models, diminishing adventitial immune cell infiltration, concomitant inflammatory responses, and matrix degradation. Unexpectedly, GPR109A gene deletion did not abrogate the protective effects of niacin against AAA formation, suggesting GPR109A-independent mechanisms. Interestingly, nicotinamide, which does not activate GPR109A, also inhibited AAA formation and phenocopied the effects of niacin. Mechanistically, both niacin and nicotinamide supplementation increased nicotinamide adenine dinucleotide (NAD+) levels and NAD+-dependent Sirt1 activity, which were reduced in AAA tissues. Furthermore, pharmacological inhibition of Sirt1 abrogated the protective effect of nicotinamide against AAA formation. Conclusion Niacin protects against AAA formation independent of GPR109A, most likely by serving as an NAD+ precursor. Supplementation of NAD+ using nicotinamide-related biomolecules may represent an effective and well-tolerated approach to preventing or treating AAA.

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